KR100293655B1 - Duty controller of automatic transmission vehicle - Google Patents

Abstract

PURPOSE: A duty controller for an automatic transmission vehicle is provided to reduce a producing cost by controlling a duty through a transmission control unit. CONSTITUTION: A duty controller of an automatic transmission vehicle comprises a pulse generator(10) outputting a pulse; an inverter(20) converting a signal of the pulse generator; a trigger signal generating unit(30) triggering a signal of the inverter; an NOR gate(G1) logically adding a signal of the inverter; an overexcited voltage generating unit(40) generating excess voltage according to a signal of the NOR gate; an NOR gate(G2) buffering a signal of the inverter; a hold voltage generating unit(50) generating hold voltage as much as a duty signal range by receiving output of the NOR gate; and a solenoid valve(60) changing exciting according to a signal of the hold voltage generating unit and the overexcited voltage generating unit.

Description

Duty controller in automatic transmission

The present invention relates to an automatic transmission vehicle, and to automatically reduce the cost and minimize the signal delay by allowing the duty control can be made by slightly modifying the TCU that was performing the performance test of the equipment using a separate duty controller Relates to the duty controller.

In general, automatic transmission vehicles have developed and used a separate duty controller to provide the same conditions as driving conditions during the performance test.

This controller outputs the appropriate duty signal and on / off control signal to each solenoid valve so that it can be tested for each driving situation.

The duty controller consists of an A / D processing unit that receives an input signal from the equipment, an operation unit that calculates digitized information, and a D / A processing unit that converts the digital value calculated by the operation unit into analog. The signal is applied to the solenoid valve of the transmission.

However, the conventional separate duty controller performs A / D processing on the input signal from the equipment, calculates S / W, and performs D / A again, so the processing speed is very slow, and the duty controller manufacturing cost itself is too expensive and the production period is Also very long.

The present invention has been made to solve the above problems, by modifying the existing TCU to achieve the duty control to reduce the signal processing time, reduce the production cost as well as shorten the production period to achieve efficient equipment performance test The purpose is to make it.

The present invention to achieve the above object

In an automatic transmission vehicle comprising an over-excited voltage generator and a hold voltage generator,

A pulse generator for outputting a pulse of a constant period;

A trigger signal generator configured to receive the signal of the pulse generator to match the trigger of the over-excited voltage generator and to maintain the on state for a predetermined time;

And a solenoid valve receiving the final duty signal of the over-excited voltage generator and the hold voltage generator.

1 is a block diagram of a duty controller for a duty control solenoid valve according to an embodiment of the present invention;

2 is a block diagram of a duty controller for an on / off control solenoid valve according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention.

First, the configuration of the present invention with respect to the duty control solenoid valve will be described with reference to FIG.

A pulse generator 10 for outputting a pulse of a predetermined period, an inverter 20 for inverting a signal of the pulse generator, a trigger signal generator 30 for triggering a signal of the inverter 20, and the trigger The NOR gate G1 for ORing the signal triggered by the signal generator 30 and the signal of the inverter 20 and the over-excited voltage generator for generating an overvoltage for a predetermined time according to the signal of the NOR gate G1. 40, a NOR gate G2 that buffers the signal of the inverter 20, and a hold voltage generator 50 that receives the output of the NOR gate G2 and generates a hold voltage equal to a duty signal period. And a solenoid valve 60 whose magnetization degree is varied according to the signals of the over-excited voltage generator 40 and the hold voltage generator 50.

The inverter 20 and the NOR gates G1 and G2 are mounted to output a signal without noise.

The trigger signal generator 30 is provided to determine a predetermined on-cycle by determining a time constant based on a predetermined resistance and a capacitor value.

Referring to the operation of the present invention made as described above are as follows.

First, when a predetermined signal is output from the pulse generator 10 according to a selection operation of an operator to perform a performance test, the inverter 20 is inverted once.

The inverted signal is output to the NOR gate G2 of the trigger signal generator 30 and the hold voltage generator 50.

Therefore, the trigger signal generator 30 outputs a signal for a predetermined on period, that is, an overexcited voltage output time.

The signal of the trigger signal generator 30 and the signal output from the inverter 20 are inverted and logically mixed at the NOR gate G1 to become a high state when both signals are "0". 40).

Therefore, the over-excited voltage generator 40 is turned on only for a predetermined time during the period of outputting "high" from the pulse controller 10, and the output voltage outputs 12V higher than 5V.

The hold voltage generator 50 receives the signal output from the inverter 20 through the NOR gate G2 to receive the same signal as the output signal of the initial pulse generator 10.

Therefore, the hold voltage generator 50 outputs a low voltage (5V) during the period in which the pulse generator 10 outputs "high".

Therefore, the current applied from the over-excited voltage generator 40 and the hold voltage generator 50 is applied to the solenoid valve 60 to perform the duty control.

As another embodiment, the configuration of the present invention for the solenoid valve to be controlled on / off is described with reference to FIG.

First, a voltage generator 100 for generating a voltage signal for on / off, an inverter 200 for inverting a signal of the voltage generator 100, and a NOR for buffering a signal output from the inverter 200. The magnetization state is variable according to the signals of the gate G3, the solenoid valve driver 300 for outputting a control signal for driving the solenoid valve according to the signal of the NOR gate G3, and the solenoid valve driver 300. Being made of a solenoid valve 400.

Referring to the operation of the present invention made as described above are as follows.

When the voltage generator 100 outputs a control signal divided into “high” and “low”, the inverter 200 inverts and inverts the NOR gate G3 so that the same signal as the initial signal is obtained by the solenoid valve driver 300. Is applied.

Therefore, the solenoid valve driver 300 outputs a predetermined control signal to the solenoid valve 400 according to the applied signal, and the output signal is an on / off signal.

According to the above two embodiments, a separate duty controller can be developed and the TCU can be slightly modified without performing a performance test, so that duty control, that is, solenoid valve can be controlled on and off with duty control, thereby reducing the manufacturing cost and reducing the production period It works.

In addition, since the circuit of the TCU is used, the signal processing scheme is simple, which shortens the signal processing time.

Claims (2)

In an automatic transmission vehicle comprising an over-excited voltage generator and a hold voltage generator, A pulse generator for outputting a pulse of a constant period; A trigger signal generator configured to receive the signal of the pulse generator to match the trigger of the over-excited voltage generator and to maintain the on state for a predetermined time; A duty controller of an automatic transmission vehicle including a solenoid valve receiving a final duty signal of an over-excited voltage generator and a hold voltage generator. The duty controller of claim 1, further comprising a voltage generator for driving the on / off solenoid.

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